Tailoring combinatorial lipid nanoparticles for intracellular delivery of nucleic acids, proteins, and drugs

Lipid nanoparticle (LNP)-based drug delivery systems have become the most clinically advanced non-viral delivery technology. LNPs can encapsulate and deliver a wide variety of bioactive agents, including the small molecule drugs, proteins and peptides, and nucleic acids. However, as the physicochemical properties of small- and macromolecular cargos can vary drastically, every LNP carrier system needs to be carefully tailored in order to deliver the cargo molecules in a safe and efficient manner. Our group applied the combinatorial library synthesis approach and in vitro and in vivo screening strategy for the development of LNP delivery systems for drug delivery. In this Review, we highlight our recent progress in the design, synthesis, characterization, evaluation, and optimization of combinatorial LNPs with novel structures and properties for the delivery of small- and macromolecular therapeutics both in vitro and in vivo. These delivery systems have enormous potentials for cancer therapy, antimicrobial applications, gene silencing, genome editing, and more. We also discuss the key challenges to the mechanistic study and clinical translation of new LNP-enabled therapeutics.

Construction of human immunoglobulin combinatorial library and screening of phage antibodies to platelet / 中国输血杂志

Objective Human immunoglobulin combinatorial library was generated by using phage surface display expression system, and phage antibodies (Fabs) to platelet were screened.Methods:PBMC were separated from a patient who Were transfusion refractory to platelet. mRNA was isolated and cDNA was synthesized by reverse transcriptase.The immunoglobulin heavy chain Fd and the light chain ? genes were amplified by half nested PCR and the PCR products were cloned into the expression vector pCome3 respectively.The immunoglobulin combinatorial library was constructed and screened by 3 rounds of affinity selection.Results Human Immunoglobulin Combinatorial Library was successfully constructed.The specific phage antibodies were highly enriched after 3 rounds of biopanning selection against platelet membrane proteins.Conclusion The antibody library and human monoclonal antibodies to platelet may be useful as molecular tools to study the anti platelet drugs, platelet related diseases, epitope of human platelet antigens.

Construction of human immunoglobulin combinatorial library containing D-Dimer on the surface of phage / 中国病理生理杂志

AIM: To construct a human recombinant immunoglobulin library containing D-Dimer by using phage surface display technology. METHODS: Human immunoglobulin heavy chain and light chain genes were amplified respectively by RT-PCR from different human lymphocytes using family specific primers and signal sequences of immunoglobulin as half-nested PCR primers. The heavy chain and light chain PCR products were cloned into phagemid vector pComb3H and the human immunoglobulin recombination library was generated with helper phage VCSM13. RESULTS: A human combinatorial antibody library consisting of 2.8?10~8 in dependent clones was generated with a titer of 4.1?10~(17)PFU/L. The recombinant frequency of Fab genes was 46%. CONCLUSION: A human combinatorial antibody library was generated. It will be beneficial for selecting Fab antibodies of D dimer from the library.